Powerful Peptides, Functional Carbs

Mag-10: High-Octane Supplementation

Use this high-tech supplement for protein pulsing, post-workout recovery, and preventing muscle loss during dieting.

Those who appreciate muscle cars are familiar with octane boosters. By using a fuel additive, you could coax your Camaro into churning out a bit more torque and horsepower.

That's a lot like Biotest's MAG-10 Elite Recovery (Buy at Amazon) formula. It's labeled as a "Workout Recovery Drink," and it does speed up recovery. But it also increases work capacity and "torques up" muscle protein synthesis to the maximum degree possible in human physiology.

It's an ideal formulation for either putting on muscle or speeding up recovery so you can work out harder and more often.

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MAG-10 and How It Works

MAG-10 is essentially a protein powder, but a very special one. Rather than being comprised of whole proteins like milk, whey, egg, etc., it's formulated with a unique di- and tri-peptide blend. A peptide is a short chain of amino acids linked by peptide bonds. In the case of MAG-10, the peptides it contains consist solely of linked pairs of two amino acids and linked groups of three amino acids.

This is significant because the digestive system doesn't need to break down peptides smaller than four linked amino acids. Because they're so small, they ninja right through the intestinal wall into the bloodstream, where they can quickly initiate muscle protein synthesis.

That means that a single scoop of MAG-10 not only gets to work much faster than conventional whole proteins, but also stimulates muscle protein synthesis to a much higher degree than 30 or 40 grams of ordinary protein powders might.

A Carb That Earns Its Keep

Each serving of MAG-10 also contains a small amount (12 grams) of the functional carbohydrate cyclic dextrin which is cool because…

  • It has very high solubility and low viscosity. That means it has a very short gastric emptying time so that the gut absorbs it quickly.
  • It's been shown, through numerous studies, to increase endurance and reduce RPE, or "rate of perceived exertion" – meaning that you can work hard without it feeling like you're working hard.
  • Its low osmotic pressure (in comparison to drinks that don't contain it) results in less gastrointestinal discomfort while exercising or not.
  • It also elicits a small insulin surge, which helps shuttle amino acids directly to muscle cells.

All of this makes MAG-10, among other things, a perfect pre- and post-workout drink.

When To Use MAG-10

There are several ways to use MAG-10 (Buy at Amazon) depending on your goals:

1. For Protein Pulsing (Building Muscle)

Science has shown that it's not a good idea to constantly jam your body with amino acids. Protein synthesis accelerates rapidly after a meal, but it drops precipitously after about two hours – even if amino acid levels are still high.

It seems you need a refractory period, a time when your body gets a break from the constant influx of amino acids so it can "regroup," so to speak, before re-initiating protein synthesis.

A group of researchers, however, wanted to see if "pulsing" liquid amino acids and some carbs between meals would work better for muscle growth than just eating a few solid meals throughout the day. It worked. Those subjects who alternated between a whole-food meal and an amino acid/carbohydrate drink like MAG-10 every 2.5 hours increased muscle protein synthesis without experiencing that precipitous dip.

2. During Fasting Periods

Generic fasting works for losing body fat. The trouble is, that you often lose nearly as much muscle mass as fat mass because your body robs calories from both sources. So go ahead and stop eating whole foods for your pre-determined fasting period, but continue to drink a serving of MAG-10 every few hours to prevent muscle loss.

3. For Post-Workout Recovery

After finishing a rough workout, levels of cortisol, the muscle-eating hormone, elevate, and your body's rate of protein breakdown exceeds its rate of protein synthesis. MAG-10 puts the kibosh on cortisol-induced catabolism and speeds up growth and recovery.

4. During Cardio or Metabolic Conditioning

Whether or not fasted cardio is actually more effective in burning fat than doing cardio in a fed state is still controversial, but one thing that isn't controversial is that fasted cardio can burn up muscle as well as fat.

Dr. Lonnie Lowery found, however, through laboratory testing, that MAG-10 acts as a muscle "protectant" by interfering with the catabolism of muscle. All you need to do is sip a serving during cardio. "Fat burning remained in high gear during aerobic sessions while muscles were fully protected," concluded Lowery.

References

  1. Areta, J. L. (2013). "Timing and distribution of protein ingestion during prolonged recovery from resistance exercise alters myofibrillar protein synthesis." The Journal of physiology 591: 2319-2331.
  2. Arnal MA, Mosoni L, Dardevet D, Ribeyre MC, Bayle G, Prugnaud J, Patureau Mirand P. "Pulse protein feeding pattern restores stimulation of muscle protein synthesis during the feeding period in old rats," J Nutr. 2002 May;132(5):1002-8.
  3. Bohé, J. (2001). "Latency and duration of stimulation of human muscle protein synthesis during continuous infusion of amino acids." The Journal of physiology 532: 575-579.
  4. Churchward-Venne, T. A. (2012). "Nutritional regulation of muscle protein synthesis with resistance exercise: strategies to enhance anabolism." Nutrition & Metabolism 9(1): 40.
  5. Glynn, E. L., C. S. Fry, et al. (2010). "Excess Leucine Intake Enhances Muscle Anabolic Signaling but Not Net Protein Anabolism in Young Men and Women." The Journal of Nutrition 140(11): 1970-1976.
  6. Kim, P. L., R. S. Staron, et al. (2005). "Fasted-state skeletal muscle protein synthesis after resistance exercise is altered with training." The Journal of physiology 568(1): 283-290.
  7. Moore, D. R., J. E. Tang, et al. (2009). "Differential stimulation of myofibrillar and sarcoplasmic protein synthesis with protein ingestion at rest and after resistance exercise." The Journal of physiology 587(4): 897-904.
  8. Paddon-Jones, D., M. Sheffield-Moore, et al. (2005). "Exogenous amino acids stimulate human muscle anabolism without interfering with the response to mixed meal ingestion." American Journal of Physiology - Endocrinology and Metabolism 288(4): E761-E767.
  9. Pasiakos, S. M. (2012). "Exercise and Amino Acid Anabolic Cell Signaling and the Regulation of Skeletal Muscle Mass." Nutrients 4(7): 740-758.
  10. Robinson, M. J. (2013). "Dose-dependent responses of myofibrillar protein synthesis with beef ingestion are enhanced with resistance exercise in middle-aged men." Applied physiology, nutrition, and metabolism 38(2): 120-125.
  11. Takashi Furuyashiki, et al. "Effects of ingesting highly branched cyclic dextrin during endurance exercise on rating of perceived exertion and blood components associated with energy metabolism," Bioscience, Biotechnology, and Biochemistry, 2014 Vol. 78, No. 12, 2117-2119.
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